View clinical trials related to Weaning.
Filter by:The discontinuation of mechanical ventilation (MV) and the recovery of spontaneous breathing can lead to important cardiovascular alterations due to changes in the intrathoracic pressure. The autonomic modulation assessed through heart rate variability (HRV) during weaning from MV and its impact on cardiorespiratory variables has not been well elucidated yet. To evaluate the effect of T-tube (TT) and pressure support ventilation (PSV) during weaning from MV on cardiorespiratory variables and heart rate variability.
This study will compare Drager Smart Care (SC), a commercially available automated ventilator controlled weaning mode to the current daily spontaneous breathing trial (SBT) weaning protocol. The study is designed to determine if automated ventilator controlled weaning can reduce total duration of intubation following mechanical ventilation in ICU patients requiring prolonged mechanical ventilation (>72 hours).
In the mechanically ventilated patient, the single greatest cause of imposed work of breathing is the resistance caused by the endotracheal tube. Commonly used maneuvers to overcome this resistance include the use of continuous positive airway pressure or pressure support.However, a new mode of ventilatory support called automatic tube compensation (ATC) delivers exactly the amount of pressure necessary to overcome the resistive load imposed by the endotracheal tube for the flow measured at the time (so called variable pressure support). The aim of this study is to evaluate whether a combination of pressure support with automatic tube compensation is superior to PS alone in weaning patients with severe neurotoxic snake envenoming.
After an episode of acute respiratory failure requiring mechanical ventilation, weaning the patient from the ventilator may be difficult. Discontinuation of ventilation is estimated to take up to 40% of the total duration of ventilatory support. Approximately two- thirds of patients can be disconnected from the ventilator after a spontaneous breathing trial. Prolongation of mechanical ventilation may increase the risk of adverse events such as infections and can increase morbidity and mortality. Identifying weaning readiness early and reliably is therefore crucial. Weaning protocols developed to assist in identifying weaning readiness have been shown to shorten duration of mechanical ventilation, most notably the weaning period. Closed loop knowledge-based systems serve as a continuously applied weaning process that automatically reduce ventilatory assistance according to patient ability and indicate when the patient is ready for disconnection. No data on the use of such a computer driven system (CDS) in elderly patients requiring prolonged ventilation in weaning centers (non ICU) have been reported. The Objective of the present study is to evaluate the ability of a computer driven system to predict weaning readiness and to compare this to a physician-directed protocol. The CDS continuously adapts pressure support, gradually decreasing ventilator assistance according to patient ability, and thus indicates weaning readiness. Patients who maintain spontaneous breathing for 7 days following weaning will be considered to be successfully weaned from mechanical ventilation.
The clinical efficacy of noninvasive ventilation (NIV) has now been demonstrated in the management of acute-on-chronic respiratory failure (ACRF) of various etiologies. Endotracheal mechanical ventilation (ETMV) can lead to numerous complications and weaning difficulties increasing the risk of prolonged ETMV, morbidity and mortality as well as excess cost of intensive care. Therefore, it could be interesting to use NIV for delivering effective ventilatory support and reduce the length of ETMV in ACRF patients still not capable to maintain spontaneous breathing. From the interesting but discordant results of two recent randomised controlled trial, a working group from the Société de Réanimation de Langue Française (SRLF) decided to perform a new prospective randomised controlled and multicenter trial. The aim of the study is to assess the usefulness of NIV as an extubation and weaning technique in ventilated ACRF patients. The methodology used compares three weaning strategies in parallel in ACRF patients considered difficult to wean : invasive conventional weaning (group A), extubation relayed by nasal oxygentherapy (group B), and extubation relayed by NIV (group C). Based on the main end-point defined as the weaning success/failure rate, 208 patients from17 investigator centers are planned to be included. Results of the study will also allow to assess the respective impact of the three weaning strategies on the length of ETMV and weaning, the mechanical ventilation-related morbidity, the patients lengths of stay and mortality. Results of the VENISE trial should permit to improve the management of the difficult to wean ACRF patients and thus to contribute to more define the place of NIV among the weaning and prevention of re-intubation strategies in these patients.